Rami Kantor1. 1. Division of Infectious Diseases, The Miriam Hospital, Providence, Rhode Island 02906, USA. rkantor@brown.edu
Abstract
PURPOSE OF REVIEW: HIV knowledge is based on subtype B, common in resource-rich settings, whereas globally non-B subtypes predominate. Inter-subtype pol diversity encompasses multiple genotypic differences among HIV variants, the consequence of which is unknown. This review summarizes publications from the past year relevant to the impact of HIV diversity on drug resistance evolution and its potential clinical implications. RECENT FINDINGS: The benefit of antiretroviral therapy in non-B infected patients is ongoing, though subtype heterogeneity in rates of disease progression is observed. Pol inter-subtype diversity is high, and known subtype B drug resistance mutations occur in non-B subtypes. New mutations and subtype-specific mutation rates are identified, however, unexplained drug susceptibilities are seen, and additional insight is offered on structural pathogenic mechanisms of resistance in non-B subtypes. These differences may affect genotypic interpretation and our ability to apply drug resistance to patient care. SUMMARY: Current evidence suggests good treatment response and comparable drug resistance evolution in HIV-1 B and non-B infected patients, with increasingly emerging differences. Impact of inter-subtype diversity on drug susceptibility and on evolution of drug resistance should continue to be a major research focus to increase our understanding and ability to improve global patient care.
PURPOSE OF REVIEW: HIV knowledge is based on subtype B, common in resource-rich settings, whereas globally non-B subtypes predominate. Inter-subtype pol diversity encompasses multiple genotypic differences among HIV variants, the consequence of which is unknown. This review summarizes publications from the past year relevant to the impact of HIV diversity on drug resistance evolution and its potential clinical implications. RECENT FINDINGS: The benefit of antiretroviral therapy in non-B infectedpatients is ongoing, though subtype heterogeneity in rates of disease progression is observed. Pol inter-subtype diversity is high, and known subtype B drug resistance mutations occur in non-B subtypes. New mutations and subtype-specific mutation rates are identified, however, unexplained drug susceptibilities are seen, and additional insight is offered on structural pathogenic mechanisms of resistance in non-B subtypes. These differences may affect genotypic interpretation and our ability to apply drug resistance to patient care. SUMMARY: Current evidence suggests good treatment response and comparable drug resistance evolution in HIV-1 B and non-B infectedpatients, with increasingly emerging differences. Impact of inter-subtype diversity on drug susceptibility and on evolution of drug resistance should continue to be a major research focus to increase our understanding and ability to improve global patient care.
Authors: Allison K Delong; Mingham Wu; Diane Bennett; Neil Parkin; Zhijin Wu; Joseph W Hogan; Rami Kantor Journal: AIDS Res Hum Retroviruses Date: 2011-10-26 Impact factor: 2.205
Authors: Philippa J Easterbrook; Mel Smith; Jane Mullen; Siobhan O'Shea; Ian Chrystie; Annemiek de Ruiter; Iain D Tatt; Anna Maria Geretti; Mark Zuckerman Journal: J Int AIDS Soc Date: 2010-02-03 Impact factor: 5.396
Authors: Florence Doualla-Bell; Tendani Gaolathe; Ava Avalos; Suzanne Cloutier; Ndwapi Ndwapi; Christina Holcroft; Howard Moffat; Diana Dickinson; Max Essex; Mark A Wainberg; Madisa Mine Journal: J Int AIDS Soc Date: 2009-10-25 Impact factor: 5.396